denison hydraulics directional control valve cetop …web.tiscali.it/eurofor/dn6.pdf · denison...
TRANSCRIPT
Publ. 4-EN 3060-A, replaces 4-EN 306-D
DENISON HYDRAULICSDirectional Control Valve Cetop 03
Series 4D01 − Design B
FEATURES, DESCRIPTION
2
T
A T B
(P)Example: Solenoid operation
FEATURES x Low pressure drop at high flow rates,due to optimized flow paths in body and spool
design.x Mounting configuration conform to ISO 4401.x Wide variety of spool types available, including detent.x Interchangeability of spools and bodies due to high precision manufacturing
processes.x Position control by inductive detector (see pages 12, 13).x Soft shift version available.x Low electrical power consumption (31 W / 24 VDC).x Change of solenoid coil is fast and simple without risk of oil leakage.x Pressure up to 210 bar (DC) / 140 bar (AC) allowable in the tank port.x Electrical connection by standard 3 pin connector according to ISO 4400 or DIN
43650.x All components designed and tested for a minimum life of 10 million cycles.x Every valve is factory tested prior to delivery.x Worldwide DENISON Service.
DESCRIPTION DENISON’s direct operated Directional Control Valve 4D01 conforms to Cetop 03
standard interface.
They are designed to be subplate or manifold mounted or used in conjunction with
the stack valves system (see also Bulletin 8-EN 565).
Both the valve mounting interface and electrical connection methods available
conform to the accepted International Standards Cetop, ISO and DIN.
The five annuli body design gives a precise guide for many types of spools.
High precision economical manufacturing processes allow interchangeability of
spools without the need for selective assembly.
For any applications which are not covered by the ordering code details, please
contact your local DENISON office.
OPERATION The Directional Control 4D01 consists principally of a spool, body and either one or
two actuators, depending on the application. The spool is shifted either by use of
solenoids, mechanical actuator, hydraulic or pneumatic actuator, allowing oil under
pressure from port P to flow to either port A or B, and subsequently connecting the
alternate port to the tank. De-energizing the actuator allows the spring to return the
spool to the centre or offset position. The manual override option allows for manual
operation of the spool.
ORIFICE In certain operating conditions a higher flow-volume can take place than the
functional limit of the valve permits.
In this case it is recommended to fit an orifice-plug in the P-port. For order details
refer to page 3 or 4.
ORDERING CODE − SOLENOID OPERATION
3
Model No.: 4D01 . . .. .. .. B ... .. .. .. .. ..− −− −
1 Series
01 = Cetop 03
2 Body
3 = Standard
F = only for spools 55, 56
3 Control
1 = 1 solenoid
2 = 2 solenoids
7 = 2 solenoids, 2 pos. detents
(only for spools 11, 12, 51, 52 & 91)
4 Spool Type
refer to pages 5 and 6
5 Spool Position
01 = 2 (a, b), Spring offset to pos. ”b”, energized to ”a”
02 = 2 (a, b), Spring offset to pos. ”a”, energized to ”b”
03 = 3 (a, o, b), Spring centered pos. ”o”
05 = 2 (o, b), Spring centered pos. ”o”, energized to ”b”
06 = 2 (o, a), Spring centered pos. ”o”, energized to ”a”
09 = 2 pos. detents (for control option 7)
6 End Cap
01 = for control 1
02 = for controls 2, 7
Versions with inductive detector:
SA = for control 1: neutral position controlled
SB = for control 1: ”a” or ”b” position controlled
TC = for control 2: ”a” or ”b” position controlled
SC = for control 2: ”b” or ”a” position controlled
TA = for control 2: ”o” position controlled
SA = for control 2: ”o” position controlled
k For AC & DC sol.
(see page 12)
k For DC sol. only
(see page 13)
7 Design Letter
8 Seal Class
1 = NBR-seals (Standard)
4 = EPR-seals
5 = FPM-seals (Viton`)
9 Solenoid Voltage
G0R = 12 V
G0Q = 24 V DC
G0D = 27 V
W01= 115 V / 60 Hz
W02= 230 V / 60 HzAC
W06= 115 V / 50 Hz
W07= 230 V / 50 Hzk k
Order information for plug-in connectors see pages 9 or 10
1* Valve Accessories / Modifications
08 = Orifice 0.8 mm dia. in P-port
10 = Orifice 1.0 mm dia. in P-port
12 = Orifice 1.2 mm dia. in P-port
32 = Tube cartridge without manual override
52 = Tube cartridge with manual override and rubber cover
G3 = Tube cartridge with manual override and soft shift orifice (only for DC version) − see page 11
1 2 3 4 5 6 7 8 9 0 1 2 3 4
ORDERING CODE − LEVER, CAM, PNEUMATIC & HYDRAULIC OPERATION
4
Model no.: 4D01 . . .. .. .. B .. .. .. ..− −− −
1 Series
01 = Cetop 03
2 Body
3 = Standard
F = only for spools 55, 56
3 Control
4 = Lever operated
5 = Cam operated
D = Pneumatic operation, one-side
E = Pneumatic operation, both-sides
F = Pneumatic operation, both-sides (2 pos. det.)
Q = Hydraulic operation, one-side
R = Hydraulic operation, both-sides
S = Hydraulic operation, both sides (2 pos. det.)
4 Spool Type
refer to pages 5 and 6
5 Spool Position
01 = 2 (a, b), Spring offset to pos. ”b”, activated to ”a”
02 = 2 (a, b), Spring offset to pos. ”a”, activated to ”b”
03 = 3 (a, o, b), Spring centering pos. ”o”
05 = 2 (o, b), Spring centering pos. ”o”, activated to ”b”
06 = 2 (o, a), Spring centering pos. ”o”, activated to ”a”
07 = 3 pos. detents (for control 4)
09 = 2 pos. detents (for control 4)
6 End Cap
01 = for controls D and Q
02 = for controls E, F, R and S
04 = for controls 4 and 5
05 = for control 4 and spool pos. 07 and 09
7 Design Letter
8 Seal Class
1 = NBR-seals (Standard)
4 = EPR-seals
5 = FPM-seals (Viton`)
9.. Valve Accessories / Modifications
10 = orifice 1.0 mm in P
12 = orifice 1.2 mm in P
1 2 3 4 5 6 7 8 9 0 1 2
SYMBOLS
5
q 1-Solenoid operation
w pneumatic operationA-Side
e hydraulic operation
r Cam operationk
q 1-Solenoid operation
w pneumatic operationB-Side
e hydraulic operation
r Cam operationk
Spool position 06 Spool position 01 Spool position 05
Spring centering spring offset Spring centering
x 01
02
x 03
x 07
x 08
09
10
x 46
55
56
x 64
65
0X
x 11
x 12
x 51
52
81
91
0C
0Y
x 01
02
x 03
x 07
x 08
09
10
x 46
55
56
x 64
65
0X
x standard spools
y transfer configuration only (not switched position)
SYMBOLS
6
q 1-Solenoid operation
w pneumatic operationB-Side
e hydraulic operation
r Cam operationk
q 2-Solenoid operation
w pneumatic operation, both sides
e hydraulic operation, both sides
r Lever operation
Spool position 02 Spool position 03 Spool position 09
Spring offset Spring centering 2 pos. detents
Spool position 07
3 pos. detents
1) Lever operation not with
spools 02, 55, 56
x standard spools
y transfer configuration only (not switched position)
FUNCTIONAL LIMITS − SOLENOID OPERATION
7
FUNCTIONAL LIMITS The functional limits have been obtained with warm solenoid condition and at 10 %
undervoltage.
All flow data given is considered as 2 flow directions (e. g. PfB and simultaneously
from AfT).
For only one flow direction (4-Way-Valve used as 3-Way-Valve) the permissible flow
rates will be lower.
Valve with Standard DC-Solenoid
Flow l/min
Pre
ssure
bar
Valve with Standard AC-Solenoid
Flow l/min
Pre
ssure
bar
Spool typeCurve no. Curve no.
DC AC
01 4 2
02 9 6
03 1 2
07 5 3
08 7 2
09 10 7
10 10 7
11 2 (1) 1 (1)
12 1) 6 (8) 5 (9)
46 3 4
51 2 (1) 2 (1)
52 6 (8) 5 (9)
55 9 9
56 9 9
64 5 3
65 5 3
81 3 1
91 (1) (1)
0C 1 1
0Y 11 8
0X 11 8
( ) Curves for spool with detents
1) Only if port A or B is closed
PRESSURE DROP, CHARACTERISTICS
8
PRESSURE DROP
Flow l/min
Pre
ssure
dro
pb
ar
Oil temperature 50 hC; oil viscosity 40 cSt.
Spool type
01 02 03 07 08 09 10 11 12 46 51 52 55 56 64 65 81 91 0C 0Y 0X
PfA a e d l d c c c h a e f g g h l b i k a b
PfB a e d l d c c c h a e f g g l h b i k a b
PfT b – – i – – – – – – – – – – k k – – k – –
AfT c c d l a e a d – g g – f – k l e d – e c
BfT c c d l b a e d – g g – – f l k e d – e c
CHARACTERISTICS x Design Sliding spool valve
x Type of mounting Subplate
x Mounting position Optional but horizontal optimal
x Ambient temperature range − 20 . . . + 50 hC
x Operating pressure (P, A, B) up to 350 bar
x Max. flow 80 l/min (see diagrams)
x Fluid Mineral oil according to DIN 51524 and 51525
(For other fluids please consult DENISON)
x Viscosity range 10 . . . 650 cSt, optimal 30 cSt
x Fluid temperature range − 18 . . . + 80 hC
x Contamination level Max. permissible contamination level
according to NAS 1638 Class 8 (Class 9 for
15 Micron and smaller) or ISO 17/14
If the performance characteristics outlined above do not meet your own
particular requirements, please consult your local DENISON Office.
1- AND 2-SOLENOID OPERATED VERSIONS, DC-VOLTAGE
9
x Nominal voltage See ordering code page 3
x Power input 31 W
x Permissible pressure T . . . . 210 bar
x Solenoid response time
− sol. energized . . . 46 ms
− sol. de-energized . . . 27 ms
− quick energizing 1) . . . 30 ms 1) double voltage
x Permissible voltage difference + 5 . . . − 10 %
x max. coil temperature + 180 hC
x Temperature class H
x Relative operating period 100 %
x Type of protection IP 65
x Cycle (1/ H) . . . 16.000
x Weight 1 sol. 1.4 kg
2 sol. 1.7 kg
DC-Solenoid a DC-Solenoid b
Manual override
Coil can be turned to any position
Manual override
with rubber cover
Port function
P = Pressure
T = Tank
A + B = User
Seals for ports P, A, B, T
9.25 x 1.78 691-00012-0
36
Plug-in connectors according to ISO 4400
Versions A-Side (grey) B-Side (black)
Standard < 250 V PG 11 167-01007-8 167-01008-8
with LED (red) 15 . . . 30 V 167-01100-8 167-01101-8
with bridge rectifier 12 . . . 250 V 167-01076-8 167-01014-8
1- AND 2-SOLENOID OPERATED VERSIONS, AC-VOLTAGE
10
x Nominal voltage See ordering code page 3
x Power input 31 W
x Permissible pressure T . . . . 140 bar
x Holding 78 VA
x Inrush 264 VA
x Solenoid response time
− sol. energized . . . 20 ms
− sol. de-energized . . . 18 ms
x Permissible voltage difference + 5 . . . − 10 %
x max. coil temperature + 180 hC
x Temperature class H
x Relative operating period 100 %
x Type of protection IP 65
x Cycle (1/ H) . . . 7.200
x Weight 1 sol. 1.5 kg
2 sol. 1.8 kg
AC-Solenoid a AC-Solenoid b
Manual override
Coil can be turned to 90 h intervals
Manual override
with rubber cover
Port function
P = Pressure
T = Tank
A + B = User
Seals for ports P, A, B, T
9.25 x 1.78 691-00012-0
36
Plug-in connectors according to ISO 4400
Versions A-Side (grey) B-Side (black)
Standard < 250 V PG 11 167-01007-8 167-01008-8
with LED (red) 15 . . . 30 V 167-01100-8 167-01101-8
with bridge rectifier 12 . . . 250 V 167-01076-8 167-01014-8
SOFT SHIFT VERSION, OPTION G3
11
DENISON offers the Directional Control Valve in Cetop 03 size with a ”soft shift”
option (G3). A special solenoid type permits a multiple increase in the standard
solenoid response time.
The Option G3 delivers:
− Reduced pressure shocks in venting operations.
− Reduced system noise during spool transition.
− Increased lifetime of the valve and system.
Venting Venting
DC-sol. a DC-sol. b
Circuit design
300 bar
0 bar
Example sol. ”a” energized
decompression PfA (t3):
300 bar;
60 l/min;
36 cSt; 50 hC;
4D01-3203-0302-B1 G0Q-G3
Ordering code: 4D01− . . . . − . . . . − B . . . − G3
Solenoid voltage and current
G0R = 12 VDC
G0Q = 24 VDC
G0H = 48 VDC
With rectifier 1)
DC-Output AC-Input
GAN = 102 VDC 115 V / 50 (60) Hz
GAG = 205 VDC 230 V / 50 (60) Hz
GAR = 98 VDC 110 V / 50 (60) Hz
Modification
G3 = soft shift
1) For applications with AC input voltage a DC solenoid with rectifier
connector must be used!
Depending on spool type, the functional limits of the soft shift valve will be reduced
with as much as 25 % in comparison to the data in this bulletin.
Note: Ensure that the solenoid tube cartridges are filled with oil at all times. For that
the tube cartridges have venting screws (see above). In applications above the oil
level, the use of a check valve . . . 2 bar in the tank line is recommended.
Pressure shift sequence of spool stroke ofa or ofb
Pre
ssu
rep
(bar)
Time t (ms)
t1 t2
Standard versionwithout option G3
0
300
200
100
0
1
0 200 400 600 800 1000P
ressu
rep
(bar)
Time t (ms)
t3 t4
Soft shift valvewith option G3
0
300
200
100
0
1
0 200 400 600 800 1000
Response times (ms) for 24 V DC Solenoid
t1 t2 t3 t4
Spool stroke 35...40 55...60 300...500 400...800
Pressure change 20...25 35...40 80...200 80...400
Note:
Response time will be influenced by changes in viscosity, pressure or flow.
1 SOLENOID VERSION WITH POSITION CONTROL
12
x Function P-channel FET, contact positivex Supply voltage US 24 V ± 20 % (19.2 V . . . 28.8 V)
(full wave bridge with capacitor)x Reverse polarity protection max. 300 V installedx Ripple voltage 10 %x Current consumption approx. 20 mA each circuitx Outputs Out 1: NC contact positive
(not short circuit protection)
Out 2: NO contact positivex Output voltage − Signal L US − 2.5 V
− Signal 0 < 1.8 Vx Output current < 400 mA at US + 20 %x Environmental protection IP 65x Operating temperature range 0 hC . . . + 85 hCx Wire cross-sectional area 4 x 0.5 mm2
x Tensile strength of transmitting conduit p dyn. 315 barx Declaration of conformity no. 00 02 002 9 93
Attention:
EMC only ensured when using screened cables and screened plug casing!
Spool position
01, 06 02, 05
Example: 4D01-*1**-01SA-B*G0*
without manual override
DC-Solenoid a
10 Nm
PG 7
Block diagram and connection
of the inductive detector
Overload protectedoutpout
+ US (pin 1)
Out 1 (pin 4)
Out 2 (pin 2)
– GND (pin 3)
Socket connector
US
24 VDC ± 20 %
RL1, RL2 = e.g. coil resistance
of the switch relay ≥ 60 ¸
Model Code Spool pos. Inductive Output signals
(for AC & DC solenoids) monitoring detector on neutral solenoid
position energized
4D01-*1**-02(05)SA-B neutral = spool pos. a, o Out 1 = L Out 1 = 0
a, o Out 2 = 0 Out 2 = L
4D01-*1**-02(05)SB-B end = b spool pos. a, o Out 1 = L Out 1 = 0
Out 2 = 0 Out 2 = L
4D01-*1**-01(06)SA-B neutral = spool pos. o, b Out 1 = L Out 1 = 0
o, b Out 2 = 0 Out 2 = L
4D01-*1**-01(06)SB-B end = a spool pos. o, b Out 1 = L Out 1 = 0
Out 2 = 0 Out 2 = L
Example: US = 24 V; Signal L = 21.5 V; Signal 0 ≤ 1.8 V
4D01-*1**-**SA 4D01-*1**-**SB
Out 1 Out 1U (V)
2.5 V
USSignal L
Signal 0
Stroke< 1.8 V
Out 2U (V)
2.5 V
US
Signal L
Signal 0
Stroke< 1.8 V
U (V)2.5 V
USSignal L
Signal 0
Stroke< 1.8 V
Out 2U (V)
2.5 V
US
Signal L
Signal 0
Stroke< 1.8 V
1 2 3 1 2 3
1 2 3 1 2 3
sol. a
energized
sol. a
energized
sol. a
energized
sol. a
energized
Pos. 1 = Neutral position; Pos. 2 = Switch point; Pos. 3 = End position
4D01-*1**-**SB 4D01-*1**-**SA
Out 1 Out 1U (V)
2.5 V
USSignal L
Signal 0
Stroke < 1.8 V
Out 2U (V)
2.5 V
US
Signal L
Signal 0
Stroke < 1.8 V
U (V)2.5 V
USSignal L
Signal 0
Stroke < 1.8 V
Out 2U (V)
2.5 V
US
Signal L
Signal 0
Stroke < 1.8 V
3 2 1 3 2 1
3 2 1 3 2 1
sol. b
ener-
gized
sol. b
ener-
gized
sol. b
energized
sol. b
energized
2 SOLENOID VERSION WITH POSITION CONTROL
13
x Function P-channel FET, contact positivex Supply voltage US 24 V ± 20 % (19.2 V. . . 28.8 V)
(full wave bridge with capacitor)x Reverse polarity protection max. 300 V installedx Ripple voltage 10 %x Current consumption approx. 20 mA each circuitx Outputs Out 1: NC contact positive
(not short circuit protection)
Out 2: NO contact positivex Output voltage − Signal L US − 2.5 V
− Signal 0 < 1.8 Vx Output current < 400 mA at US + 20 %x Environmental protection IP 65x Operating temperature range 0 hC . . . + 85 hCx Wire cross-sectional area 4 x 0.5 mm2
x Tensile strength of transmitting conduit p dyn. 140 barx Declaration of conformity no. 00 02 002 9 93
Attention:
EMC only ensured when using screened cables and screened plug casing!
Spool position
03
Example: 4D01-32**-03SC
without manual override
DC-Solenoid a DC-Solenoid b
10 Nm
PG 7
Block diagram and connection
of the inductive detector
Overloadprotectedoutpout
Oszilator Demo-dulator
+ US (pin 1)
Out 1 (pin 4)
Out 2 (pin 2)
– GND (pin 3)
Socket connector
US
24 VDC ± 20 %
RL1, RL2 = e.g. coil resistance
of the switch relay ≥ 60 ¸
Model Code Spool pos. Inductive Output signals
(for DC solenoids only) monitoring detector on neutral sol. b sol. a
a–o–b position energized energized
4D01-32**-03TC-B*G0* end = spool pos. a Out 1 = L Out 1 = 0 Out 1 = L
a, b Out 2 = L Out 2 = L Out 2 = 0
4D01-32**-03SC-B*G0* end = spool pos. b Out 1 = L Out 1 = L Out 1 = 0
b, a Out 2 = L Out 2 = 0 Out 2 = L
4D01-32**-03TA-B*G0* neutral = o spool pos. a Out 1 = L Out 1 = 0 Out 1 = L
Out 2 = L Out 2 = L Out 2 = 0
4D01-32**-03SA-B*G0* neutral = o spool pos. b Out 1 = L Out 1 = L Out 1 = 0
Out 2 = L Out 2 = 0 Out 2 = L
Example: US = 24 V; Signal L = 21.5 V; Signal 0 ≤ 1.8 V
Monitoring neutral Position ± Monitoring end Position ±4D01-32**-03SA 4D01-32**-03TA 4D01-32**-03SC 4D01-32**-03TC
Out 1 Out 1 Out 1 Out 1U (V)
2.5 VUS
Signal L
Signal 0
Stroke Stroke< 1.8 V
Out 2U (V)
2.5 VUS
Signal L
Signal 0
Stroke Stroke
< 1.8 V
U (V)2.5 V
USSignal L
Signal 0
Stroke Stroke
< 1.8 V
Out 2U (V)
2.5 VUS
Signal L
Signal 0
Stroke Stroke< 1.8 V
U (V)2.5 V
USSignal L
Signal 0
Stroke Stroke< 1.8 V
Out 2U (V)
2.5 VUS
Signal L
Signal 0
Stroke Stroke
< 1.8 V
U (V)2.5 V
USSignal L
Signal 0
Stroke Stroke
< 1.8 V
Out 2U (V)
2.5 VUS
Signal L
Signal 0
Stroke Stroke< 1.8 V
sol. a
energized
sol. b
energized
sol. b
energized
sol. a
energized
sol. a
energized
sol. b
energized
sol. b
energized
sol. a
energized
Pos. 1 = Neutral position; Pos. 2 = Switch point; Pos. 3 = End position
LEVER OPERATED VERSION
14
x Functional Limits 60 l/min for spools 01, 02, 03, 08, 09, 10, 46, 55, 56, 0X
(at 350 bar)40 l/min for spools 07, 64, 65
x Operating force 30 N
x Angle of operation ± 17 h
x Max. tank pressure 160 bar
x Weight 1.7 kg
Port function
P = Pressure
T = Tank
A + B = User
Seals for ports P, A, B, T
9.25 x 1.78 691-00012-0
CAM OPERATED VERSION
15
x Functional Limits 60 l/min for spools 01, 02, 03, 08, 09, 10, 11, 46, 51, 55, 56, 81, 91, 0C
(at 350 bar)10 l/min for spools 12, 52
35 l/min for spools 07, 64, 65, 0Y, 0X
x Operating force F(N) 1) at tank pressure 0 bar at tank pressure 20 bar
neutral working total neutral working total
stroke stroke stroke stroke
at operating pressure 100 bar 35 N 135 N 195 N 60 N 160 N 220 N
200 bar 35 N 155 N 195 N 60 N 180 N 220 N
350 bar 35 N 175 N 195 N 60 N 200 N 220 N
1) depending on operating and tank pressure at max. flow
x Max. tank pressure 20 bar
x Weight 1.4 kg
2.6 working stroke
4.6 total stroke
Port function
P = Pressure
T = Tank
A + B = User
Seals for ports P, A, B, T
9.25 x 1.78 691-00012-0
PNEUMATICALLY OPERATED VERSIONS
16
x Functional Limits 60 l/min for spools 01, 02, 03, 08, 09, 10,
(at 350 bar) 11, 46, 51, 55, 56, 81, 91, 0C
10 l/min for spools 12, 52
35 l/min for spools 07, 64, 65, 0Y, 0X
x Pilot pressure 4 . . . 12 bar
− tank pressure 0 bar min. 4 bar
− tank pressure 160 bar min. 6 bar
− max. allowed 12 bar
x Tank pressure max. 160 bar
x Pilot volume 3.2 cm3
x Response time 1)
− on 50 . . . 200 ms
− off 100 . . . 200 ms
1) depending on pilot pressure and pipe length
x Weight
− operated one side 1.7 kg
− operated both sides 2.3 kg
Port function
P = Pressure
T = Tank
A + B = User
X + Y = Pilot ports
Seals for ports P, A, B, T
9.25 x 1.78 691-00012-0
HYDRAULICALLY OPERATED VERSION
17
x Functional Limits 60 l/min for spools 01, 02, 03, 08, 09, 10,
(at 350 bar) 11, 46, 51, 55, 56, 81, 91, 0C
10 l/min for spools 12, 52
35 l/min for spools 07, 64, 65, 0Y, 0X
x Max. tank pressure 160 bar
x Pilot pressure min. 10 bar > tank pressure
max. 210 bar
x Pilot volume (each side) 1 cm3
x Response time 1) pp 50 bar pp 200 bar
− on 50 . . . 100 ms 15 . . . 40 ms
− off 60 . . . 160 ms 60 . . . 160 ms
1) depending on pilot pressure and pipe length
x Weight
− operated one side 1.6 kg
− operated both sides 2.2 kg
Port function
P = Pressure
T = Tank
A + B = User
X + Y = Pilot ports
Seals for ports P, A, B, T
9.25 x 1.78 691-00012-0
MOUNTING CONFIGURATION, SUBPLATES
18
MOUNTING CONFIGURATION (conform to ISO 4401)
Block mounting face
Flatness 0.01 mm / 100 mm length
Surface finish 0,8
B
For valves ordered without subplate, mounting screws
must be ordered separately.
4-Mounting screws Order-No.
M 5 x 30, DIN 912; 10.9 700-70834-8
10-24 UNC-2A x 11⁄4HH (SAE) 358-10183-8or
Torque 8.3 Nm
SUBPLATES
Model no. Order no. Weight d1 (A, B, P, T) d2 Thread for mount. screws d3
SS-B-04-G 136 S26-32959-0 1.4 kg G 1/4HH l 23 x 1 M 5
SS-B-06-G 136 S26-32960-0 1.4 kg G 3/8HH l 26 x 1 M 5
SS-B-08-G 136 S26-32961-0 1.7 kg G 1/2HH l 31 x 1 M 5
Mounting screws are included in subplate order.
M5 or 10-24 UNC-2A (15 lg.)
1/4HH & 3/8HH Subplates
panel opening dia. 76 (79)
40 (46)
44
(46)
( ) dimensions in brackets
are for 3/8HH subplates
1/2HH Subplate
Panel opening
dia. 88